Differential Expression of Novel Tyrosine Kinase Substrates during Breast Cancer Development

Chen, Yunhao; Choong, Lee Yee; Lin, Qingsong; Philp, Robin; Wong, Chee-Hong; Ang, Boon Keong; Tan, Yee Ling; Loh, Marie; Hew, Choy L.; Shah, Nilesh; Druker, Brian J.; Chong, Poh Kuan; Lim, Yoon Pin

doi:10.1074/mcp.m700395-mcp200

Cited by 126 publications

(150 citation statements)

References 47 publications

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“…Mass spectrometry techniques have become the dominant means of protein identification (20). The use of isobaric tags for relative and absolute quantitation (iTRAQ) combined with multidimensional liquid chromatography (LC) and tandem MS analysis (21) is emerging as a powerful methodology in the search for diseasespecific targets and biomarkers using cell lines (22)(23)(24)(25)(26)(27)(28)(29)(30), tissues (31)(32)(33)(34)(35)(36)(37), and body fluids (38,39). The iTRAQ method places tags on primary amines (NH 2 -terminal or -amino group of the lysine side chain), allowing detection of most tryptic peptides.…”

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confidence: 99%

Differential Protein Expression Profiling by iTRAQ-Two-dimensional LC-MS/MS of Human Bladder Cancer EJ138 Cells Transfected with the Metastasis Suppressor KiSS-1 Gene

Ruppen

Grau

Orenes‐Piñero

et al. 2010

Molecular & Cellular Proteomics

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KiSS-1 is a metastasis suppressor gene reported to be involved in the progression of several solid neoplasias. The loss of KiSS-1 gene expression has been shown to be inversely correlated with increasing tumor stage, distant metastases, and poor overall survival in bladder tumors. To identify the molecular pathways associated with the metastasis suppressor role of KiSS-1 in bladder cancer, we carried out a proteomics analysis of bladder cancer cells (EJ138) transiently transfected with a vector encompassing the full-length KiSS-1 gene using an iTRAQ (isobaric tags for relative and absolute quantitation) approach. Protein extracts collected after 24-and 48-h transfection were fractionated and cleaved with trypsin, and the resulting peptides were labeled with iTRAQ reagents. The Bladder cancer represents the fourth most common malignancy among men and the eighth cause of male cancer deaths (1). Bladder cancer can be classified based on the depth of invasion. Clinically, ϳ75% of transitional cell carcinomas (TCCs) 1 are non-muscle-invasive (pTis, pTa, and pT1), 20% are muscle infiltrating (pT2-pT4), and 5% are metastatic at the time of diagnosis (1). Low grade tumors are always papillary and usually non-invasive, whereas high grade tumors can be either papillary or non-papillary and are often invasive. Patients diagnosed with localized TCC have a 5-year relative survival rate over 90%. However, patients presenting with regional and distant metastatic disease spread have 5-year relative survival rates of lower than 50 and 10%, respectively (1). Bladder cancer progression and the development of secondary metastases follow complex sequential steps. The changes at the genetic and/or epigenetic level to the many genes involved in critical cell functions are not completely understood (2).KiSS-1 has been shown to suppress metastases without affecting tumorigenicity in melanoma and breast cancer cells (3-7). It maps to chromosome 1q32 (8) and is regulated by genes mapping to chromosome 6 (3-7). KiSS-1 encodes a 145-amino acid protein, which is processed into kisspeptins of several sizes (9 -11). Kisspeptins have been shown to control the onset of puberty and inhibit cancer metastasis of different tumor types (9 -11). Experimental and clinical studies indicate KiSS-1 to be a functionally active metastasis suppressor gene in several solid tumors (12-19). Molecular profiling analysis revealed that KiSS-1 was lost in advanced cell 1 The abbreviations used are: TCC, transitional cell carcinoma; EF, error factor; FDR, false discovery rate; iTRAQ, isobaric tags for relative and absolute quantitation; RB, retinoblastoma; TP53, tumor protein 53; CI, confidence interval; EV, empty vector; Ct, cycle threshold. Research

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confidence: 99%

Differential Protein Expression Profiling by iTRAQ-Two-dimensional LC-MS/MS of Human Bladder Cancer EJ138 Cells Transfected with the Metastasis Suppressor KiSS-1 Gene

Ruppen

Grau

Orenes‐Piñero

et al. 2010

Molecular & Cellular Proteomics

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“…Many of these analyses have focused in tyrosine phosphorylation profiles due to the fact that approximately half of the tyrosine kinase complement of the human kinome is implicated in human cancers [4], and provides important targets for cancer treatment, as well as biomarkers for patient stratification. Recently, Chen et al adapted LC-MS/MS technology to assess the tyrosine phosphorylation profile in the MCF10AT model of breast cancer progression [25]. This study identified and validated seven proteins, termed SPAG9, CYFIP1, RPS2, TOLLIP, SLC4A7, WBP2, and NSFLC1, to be authentic tyrosine kinase substrates.…”

Section: Mass Spectometry (Ms)-based Approachesmentioning

confidence: 87%

“…In contrast, only 25% of the samples showed increased levels of TOLLIP when normal cells become cancerous. Moreover detection of aberrant expression of TOLLIP and SLC4A7 in pre-neoplastic lesions suggests that they represent potential biomarkers that could complement mammography and histopathology for screening and early detection of breast cancer [25].…”

Section: Mass Spectometry (Ms)-based Approachesmentioning

confidence: 99%

Phosphoproteomics for the Mapping of Altered Cell Signaling Networks in Breast Cancer

Villamar-Cruz¹,

Arias-Romero²

2013

Oncogenomics and Cancer Proteomics - Novel Approaches in Biomarkers Discovery and Therapeutic Targets in Cancer

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“…The function of NEK10 is unknown, but evidence shows that NEK2, 6, 7 and 9 are involved in mitosis [75]. SLC4A7 is a potential tyrosine kinase substrate where expression is reduced in breast cancer tumors, and is predicted to affect the pH of the microenvironment around breast tumor cells [76].…”

Section: P24mentioning

confidence: 99%

Polygenic Susceptibility to Breast Cancer: Current State-of-The-Art

Ghoussaini

Pharoah

2009

Future Oncol.

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Breast cancer is the most commonly occurring invasive cancer among women and its estimated incidence rate worldwide is approximately 1 million cases annually. Although several breast cancer susceptibility genes have been identified over the past two decades, it is likely that many genes with modest effects are yet to be found. In this review, we discuss the progress that has been recently made with the emergence of empirical genome-wide association studies for breast cancer and the identification of several common, low-penetrance disease alleles at loci that had not been previously implicated as candidates for breast cancer susceptibility. We also discuss the implications of these recent findings for risk prediction, targeted screening and public health interventions, and conclude by discussing the strengths and weaknesses of these studies, and the strategies required to identify additional risk factors for breast cancer.Keywords association studies; breast cancer; clinical relevance; frequent variants; genetic susceptibility; genome-wide association; low penetrance; risk prediction Breast cancer is the most commonly occurring cancer in women worldwide. With an estimated 1,150,000 new cases each year, female breast cancer accounts for over 400,000 cancer deaths per year [1]. Its incidence rates have increased in all regions of the world, but are nearly threefold higher in developed than less-developed countries [1]. However, breast cancer death rates have been dropping steadily since 1990, because of a better understanding of the disease etiology, earlier detection and better treatments [101]. † Author for correspondence: Cancer Research UK, Department of Oncology, University of Cambridge, Strangeways Research Laboratory, Cambridge, UK Tel.: +44 122 374 0272 maya@srl.cam.ac.uk. Financial & competing interests disclosureDr Paul DP Pharoah is a Cancer Research UK Senior Clinical Research Fellow. Dr Maya Ghoussaini is funded through a program grant from Cancer Research UK. The authors have no other relevant affiliations or financial involvement with any organization or entity with a financial interest in or financial conflict with the subject matter or materials discussed in the manuscript apart from those disclosed. No writing assistance was utilized in the production of this manuscript. Europe PMC Funders GroupAuthor Manuscript Future Oncol. Author manuscript; available in PMC 2016 July 04. Europe PMC Funders Author Manuscripts Europe PMC Funders Author ManuscriptsObservational epidemiology has shown that breast cancer is approximately twice as common among first-degree relatives of breast cancer patients as compared with women in the general population [2,3]. In parallel, twin studies reported that the relative risk of breast cancer is much higher in monozygotic twins compared with dizygotic [4,5]. Together, these observations strongly suggest that the predominant component of familial aggregation in breast cancer is genetic rather than environmental.To date, several approaches have been used to identif...

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Differential Expression of Novel Tyrosine Kinase Substrates during Breast Cancer Development

Cited by 126 publications

References 47 publications

Differential Protein Expression Profiling by iTRAQ-Two-dimensional LC-MS/MS of Human Bladder Cancer EJ138 Cells Transfected with the Metastasis Suppressor KiSS-1 Gene

Differential Protein Expression Profiling by iTRAQ-Two-dimensional LC-MS/MS of Human Bladder Cancer EJ138 Cells Transfected with the Metastasis Suppressor KiSS-1 Gene

Phosphoproteomics for the Mapping of Altered Cell Signaling Networks in Breast Cancer

Polygenic Susceptibility to Breast Cancer: Current State-of-The-Art

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